Federal Highway Administration showcases truck platooning technology

The US Federal Highway Administration (FHWA) has conducted the first of a two-day demonstration of three-truck platoons on I-66 in Virginia. The results of a four-year research project to test the effectiveness of state-of-the-art driving and communications technologies were showcased at the event. Truck platooning uses vehicle-to-vehicle communications technology to allow trucks to follow each other more closely – at about one second apart – and travel in a more coordinated fashion.
September 15, 2017 Read time: 2 mins
The US Federal Highway Administration (FHWA) has conducted the first of a two-day demonstration of three-truck platoons on I-66 in Virginia. The results of a four-year research project to test the effectiveness of state-of-the-art driving and communications technologies were showcased at the event.


Truck platooning uses vehicle-to-vehicle communications technology to allow trucks to follow each other more closely – at about one second apart – and travel in a more coordinated fashion.

While various aspects of truck platooning have been studied for years, FHWA’s Exploratory Advance Research program has taken testing to new levels with the addition of cooperative adaptive cruise control (CACC) technology, which adds vehicle-to-vehicle communications to the adaptive cruise control capability now available in new vehicles. This connectivity allows trucks to operate more smoothly as a unit, reducing and controlling the gaps between vehicles.

The demonstration involved partially automated trucks – which are not driverless, and used professional drivers. The advanced technology that makes platooning possible is meant to supplement, not replace, the nation’s commercial motor vehicle operators.

Urban Traffic Control

Related Content

  • Want intelligent transit? Then share data
    March 2, 2022
    How will the US deploy intelligent transit networks that enable connected vehicles? Data sharing is crucial if urban mobility users are to benefit, explains Timothy Menard of Lyt
    Read More
  • Cable cars come of age in trans-continental expansion
    April 30, 2015
    David Crawford explores a high-level option of public transport. Sharing its origin with that of ski lifts at winter sports resorts in the European Alps, urban aerial cable transport is attracting growing interest as a low-footprint, low-energy alternative to conventional public transport that can swoop over ground-level traffic congestion.
    Read More
  • Automated traffic gates deployed on Auckland infrastructure project
    May 16, 2012
    The Victoria Park Tunnel, a significant infrastructure improvement to connect the Auckland harbour bridge to the Central Motorway in Auckland, New Zealand, has deployed a SwiftGate automated lane closure system. At the heart of the infrastructure project is an additional on-ramp built to increase the accessibility of the northbound highway lanes directly from urban downtown streets. This additional access is only available during peak hours when a movable barrier is shifted out, which meant that the ramp en
    Read More
  • Cooperative systems and privacy not mutually exclusive
    February 1, 2012
    Are co-operative systems and personal privacy mutually exclusive? Not necessarily, says Neil Hoose. But the more advanced the application, the greater the concession of privacy may have to become. ITS Stockholm in 2009 and the Cooperative Mobility Showcase event which took place alongside Intertraffic in Amsterdam in March this year both featured live, on-street demonstrations of safety and driver information applications that used Vehicle-to-Infrastructure (V2I) and Vehicle-to-Vehicle (V2V) communications,
    Read More

Highlighted Content